Semiconductor Laser Market Growth Analysis, Key Insights, Emerging Trends, Future Scope and Resources Outlook by 2025

Adroit Market Research
Global Semiconductor Laser
Market Size 2017
by Type (Fiber Optic Laser, Vertical Cavity Surface Emitting Laser,
Compact Disc Laser, High Power Diode Laser, Red Laser, Violet Laser,
Green Laser, Blue Laser), by Application (Optical Storage, Lithography,
Healthcare, R&D and Defense, Sensors, Display, Printing,
Communication, Industrial), by Region and Forecast 2018 to 2025
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Adroit Market Research
Semiconductor Laser Market Size and Forecast 2018-2025
• The global semiconductor laser market report also includes qualitative insights of the market such as drivers, restrains,
value chain, regulatory framework and trade statistics. The value chain has been analyzed in detail covering key stages.
• The global semiconductor laser market size is estimated to reach up to USD 7.75 billion by 2025 riding on a solid demand
from the optical communication as well as the healthcare industry across the globe.
• The global semiconductor laser industry has been primarily been driven by demand from various industries which include
printing, defense, medical, and communication among others.
• Semiconductor lasers are preferred over other lasers due to its ruggedness and greater output power. This demand is
expected to remain sustained during the forecast period thereby propelling global semiconductor laser market size.
• Semiconductor laser industry manufacturers across the globe are adopting different strategies to decrease the cost of
producing these lasers in an attempt to achieve better value proposition.
• However, emerging applications of semiconductor lasers in healthcare industry for procedures in the field of dermatology,
ophthalmology, and dentistry among others, are expected to make the healthcare segment the fastest growing application
area of semiconductor laser industry.
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Semiconductor Laser Market Size and Forecast 2018-2025
• Geographically, Asia Pacific held the largest market in global semiconductor laser market on account of the high demand
for optic fiber communication infrastructure in the rapidly emerging economies.
• The healthcare sector is witnessing a tremendous boom due to high scale investments in medical R&D, making way for
ingenious applications of semiconductor lasers. Furthermore, rapid industrialization is also expected to propel the
market at a considerable rate.
• ASML Holding N.V, Axcel Photonics Inc. (Sheaumann Laser), Coherent Inc., Han's Laser Technology Industry Group Co.
Ltd, IPG Photonics Corporation, Newport Corporation, Rofin-Sinar Technologies Inc., Sharp Corporation, Sumitomo
Electric Industries, Ltd, and Trumpf GmbH + Co. KG are the leading players present within the global semiconductor laser
market.
• The communication industry dominated the market generating more than 30% of the total global semiconductor laser
market size.
• On the basis of application the communication segment dominated the global semiconductor laser market due to high
speed data transmission which is enabled by the usage of these lasers.
• Semiconductor laser diodes enable fast switching and optical power modulation, making it the key enabler of optical
fiber communications.
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Key segments of the global Semiconductor Laser market
• Type Overview, 2015-2025 (USD million)
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Fiber Optic Laser
Vertical Cavity Surface Emitting Laser
Compact Disc Laser
High Power Diode Laser
Red Laser
Violet Laser
Green Laser
Blue Laser
• Application Overview, 2015-2025 (USD million): Optical Storage, Lithography, Healthcare, R&D and Defence, Sensors,
Display, Printing, Communication, Industrial
• Regional Overview, 2015-2025 (USD Million) (Tons): North America, Europe, Asia Pacific, Central & South America,
Middle East & Africa.
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The global semiconductor laser market was estimated to be the value of USD 5.46 billion in the year of 2017 & size is estimated to reach up to USD 7.75 billion by 2025. The market is growing due to growing demand for the high demand of optical network applications. The market is growing due to demand in optical communications and also due to cost effectiveness and the possibility of various wavelengths of low power consumption across all levels.